![Page 1: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/1.jpg)
2132-33
Winter College on Optics and Energy
A.. di Carlo
8 - 19 February 2010
University of Rome Tor VergataRomeITALY
DSC: Production, applications and market opportunity
![Page 2: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/2.jpg)
DSC: Production, applications and , ppmarket opportunity
Ald Di C lAldo Di Carlo
CHOSE – Centre for Hybrid and Organic Solar EnergyC OS Ce t e o yb d a d O ga c So a e gy
Department of Electronics Engineering
University of Rome “Tor Vergata”y g
www. chose.it
CHOSEA. Di Carlo
![Page 3: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/3.jpg)
EU Renewable Energy Road Map
20+20-20=2020The European Community has defined (10 Jan 2007) the following equation
By 2020 EU have to reduce by 20% the CO2 emissions
20+20-20=2020y y 2increase by 20% renewable energy and increase by
20% the energy efficiency20% the energy efficiency
htt // / /i d it ht l
Benefits:
http://ec.europa.eu/energy/index_it.html
443 billion euro investment 2001-2020115.8 billion euro gained from fuel reduction 130 - 320 billion euro gained from additional costs 2 milioni additional jobs
CHOSEA. Di Carlo
![Page 4: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/4.jpg)
Renewable energy objectives (2020)Electricity by renewable energiesElectricity by renewable energies
Annual Growth RateSource EREC
olta
ics
Win
dP
hoto
voP
A. Di Carlo
![Page 5: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/5.jpg)
Investment and jobsInvestment (billion euro)
Jobs
CHOSEA. Di Carlo
Source EREC
![Page 6: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/6.jpg)
EU 2020 - PV technical objectives
Strategies of the European Photovoltaic Industry Association (EPIA)
The European Photovoltaic Industry Association (EPIA) has defined a set of development strategies for achieving the goals of 2020development strategies for achieving the goals of 2020.
Besides increasing the efficiency of silicon modules, EPIA identifies the d l t f t i l d t i l t f hi i thdevelopment of new materials and concepts as a crucial step for achieving these objectives.
Among these new concepts, particular emphasis has been given to organic cells and in particular to Dye Sensitized Solar Cells (DSC).
EPIA considers the DSC as the most mature amongst the OPV technologies and thus pushes for a decisive plan for its research and development that can deliver the first production lines in the near futurethe first production lines in the near future.
CHOSEA. Di Carlo
![Page 7: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/7.jpg)
Energy from the sunTo satisfy the electricity needs of a typical family one needs 3kWp PV system, i.e. ~20m2 of photovoltaic surface (assuming~20m of photovoltaic surface (assuming system efficiencies of 15%).
20.000 euro
Cost reduction of PV systems per Wp/m2 becomes paramount in order to
COST
Cost reduction of PV systems per Wp/m becomes paramount in order to make PV technology an important instrument for energy production.
CHOSEA. Di Carlo
![Page 8: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/8.jpg)
Could we reduce cell costs ?Cost of silicon wafers is high (2 euro/ Wp, one doping level)
Production equipments are expensiveProduction equipments are expensive - 100 Meuro for 40 MWp/year amorphous silicon- 15 Meuro for 30 MWp/year bulk silicon
Is it possible to produce photovoltaic cells by reducting production and material costs ?
Moreover, is it possible to create a photovoltiac module suited for Building Integration (control on colour, transparency etc) ?g g ( , p y )
This is possible but we have to re-invent the cells and the fabrication processesfabrication processes
Organic photovoltaics
CHOSEA. Di Carlo
![Page 9: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/9.jpg)
“New” manufacture processes
Conventional Electronics Organic Electronics
Printing methodsConventional semiconductor industry
High temperature, doping, g p , p g,vacuumVery Large enterprises
Small Medium enterprises /
Liquid deposition
CHOSEA. Di Carlo
e te p ses /local productions
![Page 10: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/10.jpg)
Organic photovoltaics
Transparent substrateFull Transparent substrate
DyeDye SensitizedSensitized Small moleculeSmall molecule
HybridFull
organic
T t b t t
DyeDye--SensitizedSensitized(DSC, (DSC, GraetzelGraetzel) )
Small moleculeSmall molecule
PolymersPolymersTransparent substrate
Type Max lab efficiency Stability R&D
H b id DHybrid Dye Sensitized (Graetzel) ∼ 11-12% 20 years University and industry
Full organic solar 5% 3 years University and industry
CHOSEA. Di Carlo
gcells ∼ 5% 3 years University and industry
![Page 11: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/11.jpg)
Structure of Dye Sensitized Cells
Glass Substrate
Catalyst (Platinum, graphite)
Transparent Conducting Oxide (ITO or SnO2:F)
Dye Molecules on TiO2
Electrolyte I-/I-3
nanocristalline TiO2nanocristalline TiO2
Glass Substrate
Transparent Conducting Oxide (ITO or SnO2:F)
Glass Substrate
CHOSEA. Di Carlo
![Page 12: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/12.jpg)
Working principle of DSCA tifi i l Ph t th i
TiO2 Electrolyte CathodeTCO
Dye
Artificial Photosynthesis
InjectionS* (LUMO)
F i L l i TiO-0.5 Fermi Level in TiO2
V Max
hυ0 0E(V
)
Ox
0.0E
3I- I-3
So/S+ (HOMO)
0.5
So/S+ (HOMO)
Load
CHOSEA. Di Carlo
No permanent chemical transformation in the materials composing the cell
![Page 13: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/13.jpg)
Cell optimizationCell optimization
CHOSEA. Di Carlo
![Page 14: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/14.jpg)
Optimization parameters
TiO2 Dye
(an engineer view)
TiO2 Dye
EasyElectrolyte Easy
M diCouter-Electrode
Medium
Encapsulation
Critical
EncapsulationLayout
Printing Technique
Difficult
CHOSEA. Di Carlo
![Page 15: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/15.jpg)
Dyes
11%
Rutenium-Based Dyes
Organic Dyes
Industrial Dyes
Natural Dyes
1%
y
CHOSE A. Di Carlo
![Page 16: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/16.jpg)
Comercial TiO2: Standard Characteristics
Fabrication Process:
TiO2 Dyesol Paste 18-NRT
sintered 525°C @ 30’
final thickness 17.5-18.5 μmμ
Dye N719 Solaronix
time dipping 15htime dipping 15h
CE Platisol Solaronix
fired 400°C @ 5’
Spacer Surlyn 60 μmp y μ
Electrolyte Dyesol HPE
CHOSEA. Di Carlo
![Page 17: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/17.jpg)
Process Improvements 1/2Introduction of TiCl4 treatments
Pre TiO deposition + post
Introduction of scattering layer
TiO Dyesol scattering pastePre TiO2 deposition + postsintering treatmentsTiCl4 solution 40mM 30’ @ 70°C
TiO2 Dyesol scattering pasteWER4-0Thickness 8 μm*
0,0 0,1 0,2 0,3 0,4 0,5 0,6 0,7 0,80
V [V]
-6-4-20
ISC = 19.8 mA/cm2; Area = 0.25 cm2
VOC = 747 mV; FF = 67.87 %]
+ 20% -12-10-8-6
η = 10.03 %
mA
/cm
2
+ 22 5%+ 20%
20-18-16-14J
[m + 22.5%
-20
CHOSEA. Di Carlo
Transparent Not Transparent
![Page 18: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/18.jpg)
Process Improvements 2/2
I/V Characteristics of the TiCl4 treated cell measured with the4introduction of back-reflector
Good reproducibility within 2% deviation
CHOSEA. Di Carlo
Good reproducibility within 2% deviation
![Page 19: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/19.jpg)
Laser sintering of TiO2 layerLASER SINTERING of TiO2
an alternative to oven sintering
LaserLaser
Remote Controler-CAD
FocussingLens
Substrate
CHOSEA. Di Carlo
![Page 20: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/20.jpg)
TiO2 laser sintering/1
Widely used in the thin film solar cell industry, laser scanning processing could bring about many advantages to DSC industrial production .(non-contact, local, rapid, selective, scalable processing, low
temperature)U V l (λ 355 )U.V. laser (λ=355nm) pulsed at 30 kHzPave= 1WScan speed s ~ 0.35 mm s-1
Optimum laser Sintered
≈
Sintered
Standard ovenStandard oven sintered
Important parameter for the process is
CHOSEA. Di Carlo
Φ = P /2sw(z)
laser integrated fluence [J
![Page 21: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/21.jpg)
TiO2 laser sintering/2Clear trend of powerClear trend of power
conversion efficiency η vs. Φ
Record performance pof DSCs with laser
sintered TiO2
G.Mincuzzi, L.Vesce, A. Reale, A. Di Carlo, T.M. Brown, “Laser Sintered Nanocrystalline Titanium Dioxide
CHOSEA. Di Carlo
yFilms for Efficient Dye Solar Cell Device Fabrication”, APL 2009
![Page 22: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/22.jpg)
From cells to modulesL ALarge Area
CHOSEA. Di Carlo
![Page 23: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/23.jpg)
From small cell to (sub)module
The easiest (and wrong) way: i l lsimple scale up
CHOSEA. Di Carlo
![Page 24: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/24.jpg)
Cell scaling up and colours
CHOSEA. Di Carlo
![Page 25: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/25.jpg)
Cells with pattern
CHOSEA. Di Carlo
![Page 26: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/26.jpg)
Cells with pattern
CHOSEA. Di Carlo
![Page 27: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/27.jpg)
Example of patterned DSC (sigle cells)
CHOSEA. Di Carlo
Very Very low efficiency
![Page 28: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/28.jpg)
From small cell to (sub)module
The easiest and wrong way: i l lsimple scale up
The right way:The right way: proper aspect
ratio
CHOSEA. Di Carlo
![Page 29: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/29.jpg)
Cells and modules
Module
Lab test cell
- Optimization of the materials- Optimization of the deposition- Optimization of sealing
Cell optimization +
i t ti- Optimization of sealing -inteconnections - reduction of series resistance- balance among cells
S li i t t i i l d it - engineering of the module design- thermal expansion
Scaling up is not trivial and it is one of the major problem !
CHOSEA. Di Carlo
![Page 30: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/30.jpg)
Large area cells: The sheet resistanceL t id b t t (S L W) ith TCO t (ti k f TCO d)Let us consider a substrate (S=LxW) with TCO on top (tickness of TCO = d)
If L=W
[ ]RR ρ=Ω= / characteristic of the TCO[ ]
dRRsquare Ω / characteristic of the TCO
ExampleExample
CHOSEA. Di Carlo
![Page 31: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/31.jpg)
Sheet resistance influence
[ ] squareRWJWLJdLWRIV ⋅⋅=⋅⋅⎥⎦
⎤⎢⎣⎡==Δ 2ρ
dL ⎦⎣
Example (J=10 mA/cm2, Rsquare = 8 Ω/sq): 1) Small area cell (0.5cm x 0.5 cm) = ΔV=0.02V) ( )2) Large area cell (10 cm x 10 cm) => ΔV = 8 V >> Voc !!
CHOSEA. Di Carlo
![Page 32: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/32.jpg)
W
Single Cell - simulated dataLW
dRs ρ
=
Non Linear Resistance W
Butler-Volmer eq.
⎞⎛ ⎞⎛⎞⎛ VV L
/8resistancesheet Ω== TCOρβ= 0 35 J =7 5x10-7 A V =26 mV @ RT
⎟⎟⎠
⎞⎜⎜⎝
⎛⎟⎟⎠
⎞⎜⎜⎝
⎛−−−⎟⎟
⎠
⎞⎜⎜⎝
⎛=
TT VV
VVJJ )1(expexp0 ββ
L
/8resistancesheet Ω== TCOd
W(mm) Rs(Ω) FF eff
L= 5 cm; W=1.5mmβ= 0.35 J0=7.5x10 7 A VT=26 mV @ RT
246
0.81.11 4
68.966.262 5
11.511.110 4
W6810
1.41.72.1
62.557.752.1
10.49.68.7
1214
2.42.7
46.140
7.76.7
CHOSEA. Di Carlo
![Page 33: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/33.jpg)
Single Cell - experimental dataF Giordano et al HOPV conference 2009
0,0 0,1 0,2 0,3 0,4 0,5 0,6 0,7 0,80
Voltage [V]F. Giordano et al, HOPV conference 2009
-2 5mm 8mm 10mm12mm
@ 1 sun
0,0 0,1 0,2 0,3 0,4 0,5 0,6 0,7 0,80 0
Voltage [V]
-6
-4
A/c
m2 ]
12mm 15mm 18mm 20mm
1 0
-0,5
0,0 5mm 8mm10mm
@ 0.3 sun
-8J [m
A
2 0
-1,5
-1,0
cm2 ]
10mm 12mm 15mm 18mm
-10
-2,5
-2,0
J [m
a/c 20mm
-3,5
-3,0
-4,0
At 0.3 Sun the current is smaller with respect to 1 Sun and consequently ΔV isll
CHOSEA. Di Carlo
smaller.
![Page 34: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/34.jpg)
Single Cell - experimental dataF. Giordano et al, HOPV conference 2009
1 set of cells L = 44mm,
F. Giordano et al, HOPV conference 2009
W
W= 5, 8, 10, 12, 15, 18, 20 mm
Single titania layer of 6 microns L Jsc=10 mA/cm2 Voc=730 mV
starting efficiency = 4.7% 2
L
(W=5 mm, total area 2.2cm2)
70
75
/8resistancesheet Ω== TCOdρ
55
60
65
r [%
]WRs ρ
=45
50
55
Fill
Fact
o 1 sun0 3 sun
LdRs =
4 6 8 10 12 14 16 18 20 22
35
40F 0.3 sun
CHOSEA. Di Carlo
L [mm]
![Page 35: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/35.jpg)
From large area cells to (sub)module
Well and nowWell …and now …
How can we realize a large area module with a certain openHow can we realize a large area module with a certain open circuit voltage and a certain short circuit current ?
There are several ways to do it.
CHOSEA. Di Carlo
![Page 36: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/36.jpg)
CHOSEA. Di Carlo
![Page 37: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/37.jpg)
W and Z schemesGlassTCODye+ TiO2El t l t
Optimized and separated processes for WE and CE Electrolyte
PtV. ConnectionSealing
processes for WE and CE substrates
Sealing
•Vertical interconnections resistance decreases FF•Sealing more complexSealing more complex•Lower aperture ratio Z
- GlassTCODye+ TiO2
No vertical connections High AR
+
Dye TiO2ElectrolytePtSealing
High AR
O h lf f th ll i ill i t d th CEg
•One half of the cells is illuminated on the CE side(Current matching problem)• CE and WE processes are on the same substrate W
CHOSEA. Di Carlo
![Page 38: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/38.jpg)
W=N.WW=N WC
WC
Rinterconnects =0Module with N cellsconnected in series
[ ]C RWJRWNJWLJNWRIV ⎥⎤
⎢⎡Δ
22ρ [ ] squaresquareCC
CM R
NJRWNJWLJ
dLRIV ⋅⋅=⋅⋅⋅=⋅⋅⎥⎦
⎤⎢⎣⎡==Δ 2ρ
W
Large area cell VΔLarge area cell
NV
V eCellLM
argΔ=Δ
[ ] squareRWJWLJdLWRIV ⋅⋅=⋅⋅⎥⎦
⎤⎢⎣⎡==Δ 2ρ
CHOSEA. Di Carlo
[ ] squaredL ⎥⎦⎢⎣
![Page 39: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/39.jpg)
Z scheme - Vertical interconnections
Mismacth in thermal expansion coefficient between sealing and interconnection affect s the
A20 A
gvalue of electrical resistance
4 B C
(%)
15
B C
e (O
hm)
For different commercial module
2
Effi
cien
cy (
5
10
esis
tanc
e
conductive pastes
module
20 30 40 50 60 70 80
0E
20 30 40 50 60 70 800
Z R
CHOSEA. Di Carlo
T (°C)T (°C)
![Page 40: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/40.jpg)
Vertical interconnections- simulated dataR_interdistance+R Z contact
R_Z _contact
H= 5 cm l=1.5mm
Z(Ω) Rs(Ω) FF eff
0.40.81 2
2.52.93 3
4946.143 3
8.27.77 31.2
1.62.0
3.33.74.1
43.340.738.3
7.36.86.4
2.42.8
4.54.9
36.134.1
6.15.7
CHOSEA. Di Carlo
![Page 41: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/41.jpg)
Z and W projected layout
Z W
L= 8 mm d=3Vertical connection Paste A
L1= 8mm L2= 10 mm d=2Electrolyte B
CHOSEA. Di Carlo
![Page 42: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/42.jpg)
Z‐module – micrometer interconnectionsVoltage [V]
0,0 0,5 1,0 1,5 2,0 2,5 3,0
0
Voltage [V]
1 sun
-40
-20
2 ]
0.3 sun
80
-60
[mA
/cm
2
-100
-80J [
-120
1 0 31 sun 0.3 sun
Isc [mA/cm2] 1.06E‐1 3.77E‐2
Voc [V] 2 84 2 65Voc [V] 2.84 2.65
FF [%] 51.01 64.34
η [%] 4 15 5 8
CHOSEA. Di Carlo
η [%] 4.15 5.8
![Page 43: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/43.jpg)
Z module 6 cells
0 1 2 3 4 5V[V]
-50
0[ ]
Modulo Z CHOSE 6 celle in serieVoc=4.32 VIsc=187 mA
-100[m
A]
Isc 187 mAFF=56%Eff. on Active Area=4.9%Active Area=92 cm2
-150
I[ Active Area 92 cmAperture Ratio=0.64
-200
CHOSEA. Di Carlo
![Page 44: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/44.jpg)
From Modules to Panels
CHOSEA. Di Carlo
![Page 45: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/45.jpg)
Modules Assembly, bus bar connections
CHOSEA. Di Carlo
![Page 46: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/46.jpg)
Strings
CHOSEA. Di Carlo
![Page 47: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/47.jpg)
Panel assembly
CHOSEA. Di Carlo
![Page 48: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/48.jpg)
Final panel
CHOSEA. Di Carlo
![Page 49: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/49.jpg)
Fabrication
CHOSEA. Di Carlo
![Page 50: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/50.jpg)
Automatic Screen-Printing (Baccini)
CHOSEA. Di Carlo
![Page 51: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/51.jpg)
Batch fabrication facilitiesa) b)
c)
a) Belt oven
c)
b) Hole drilling machinec) Dye Applicator
CHOSEA. Di Carlo
![Page 52: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/52.jpg)
Batch fabrication facilitiesa) b)
c)
a) Dye profiling
c)
b) Electrolyte applicatorc) Sealing applicator
CHOSEA. Di Carlo
![Page 53: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/53.jpg)
Pilot line
CHOSEA. Di Carlo
![Page 54: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/54.jpg)
Toward IndustrializationToward Industrialization
CHOSEA. Di Carlo
![Page 55: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/55.jpg)
Applications Dyesol
DSSC Façade System at the CSIRO Energy CentreNewcastle AustraliaNewcastle, Australia
CHOSEA. Di Carlo
![Page 56: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/56.jpg)
Applications (AISIN-Toyota)
AISIN - Japan
CHOSEA. Di Carlo
![Page 57: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/57.jpg)
Applications (Sony)
CHOSEA. Di Carlo
![Page 58: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/58.jpg)
Outdoor measurements
Prof. Spena – Dr. Cornarop
Outdoor PV Test and meteorological station
Main Characteristics:Main Characteristics:- Meteorological station with also direct/indirect light intensity meas. - up to 6 panel contemporary measurement with also DSC cell meas.- 2 rotation axis
CHOSEA. Di Carlo
2 rotation axis- Solar spectra measurement
![Page 59: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/59.jpg)
Angular dependence )(Effi i ϑ)0()(
EfficiencyEfficiency ϑ
Dye Sensitized Solar Cell
1
Sili ll
1
ϑSilicon cell
0
ϑ0 45o 90o
0
GlassFTO
TiO2Dye1 2y1 2
Lower is the light intensity higher is the efficiency of thehigher is the efficiency of theelectrolyte to sustain the generated carriers
CHOSEA. Di Carlo
58Path length increases with increasing angle
![Page 60: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/60.jpg)
Outdoor Module test – Clear day
Light is mainly direct
CHOSEA. Di Carlo
![Page 61: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/61.jpg)
Outdoor Module test – Cloudy day
Light is mainly diffused
CHOSEA. Di Carlo
![Page 62: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/62.jpg)
Energy production [T. Toyoda et al. / Journal of Photochemistry and Photobiology A: Chemistry 164 (2004) 203–207][T. Toyoda et al. / Journal of Photochemistry and Photobiology A: Chemistry 164 (2004) 203 207]
1 kWp of silicon based PV modules produce 1400 kWh / year1 kWp of silicon based PV modules produce 1400 kWh / year.
1 kWp of DSC based PV modules produce 1600 kWh / year
CHOSEA. Di Carlo
![Page 63: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/63.jpg)
Build integrated PVCompared to traditional photovoltaics, DSC has the following differentiation advantages:
Low dependence on angle of light DSSC Façade System at the CSIRO Energy Centre
Stable operating voltage in all light conditionsNatural coloursOptional transparencyA th ti ll l i
gyNewcastle, Australia - DYESOL
Aesthetically pleasingManufactured as a building productProvides additional functionality for energy efficiency
Building Integration of Photovoltaics is quite convenient for DSC technology
F d DSC h t lt i f d l b f t dFacade DSC photovoltaic façade glass can be manufactured on volume production with low impact on a typical glass façade. Schott solar
Silicon based PV glass Façade has 50-70 Wp/sqm quite comparable with DSC !!!!!
A continuous Glass Façade WITHOUT PV costs 1000 euro/sqm
CHOSEA. Di Carlo
![Page 64: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/64.jpg)
DYEPOWER Consortium
DYEPOWERDYEPOWER
1 July 2009: Dyepower Consortium has been established
CHOSEA. Di Carlo
![Page 65: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/65.jpg)
DYEPOWER: ObjectivesTh bj ti f th ti i th d l t f i d t i l f tThe objective of the consortium is the development of an industrial manufacturecapability for the fabrication of DSC panels particularly for photovoltaic glassbuilding envelope. This involves identifying materials, processes andtechnological solutions that will enable these panels to reach the appropriatelevels of cost effectiveness, stability and energy efficiency.
Main Milestones
- Prototype of Photovoltaic Glass Envelope based on DSC technology
- Pilot Plan for the production of such DSC Photovoltaic Glass Envelope
CHOSEA. Di Carlo
![Page 66: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/66.jpg)
Material Costs
Material Actual Cost / m2Glass + TCO (2x) 25,00 €
In few yearsafter material scaling up
( )TiO2 paste 20,00 €Pt paste 3,00 €Dye 30,00 €Sealing paste 2,00 €
7 euro
5 euroSealing paste 2,00 €Conductive paste 4,00 €electrolyte 10,00 €external sealing 5,00 €other 1 00 €
3 euro
other 1,00 €TOT. 100,00 €
For 50 W / m2 panel we have a cost of 2 euro/watt of materials considering an
TOT 55 euro
annual production of 10.000 m2. This reduces to 1.6 euro/Wp for a production of 100.000 m2
D TiO2 t d El t l t d i d t i l li d tDye, TiO2 paste and Electrolytes are under industrial scaling up and we expect a strong reduction of their retail prices (< 1 euro/watt).
More critical is the situation for the glass-TCO where no strong reduction of the price is forecast (Pilkington)
CHOSEA. Di Carlo
![Page 67: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/67.jpg)
Computer Aided Design (CAD): p g ( )Simulation of DSCs
CHOSEA. Di Carlo
![Page 68: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/68.jpg)
Scheme of a DSC
TCO
PLATINUM
TCO
DYE
Electrolyte I-/I-3
m20
-30 μ
TiO2TiO2 TCO
CHOSEA. Di Carlo
![Page 69: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/69.jpg)
Kinetic: Important rate constants
E(eV) 1. Dye ExcitationTiO2 DYE Electrolyte
3I-2
12. Electron Injection into
TiO2 Conduction BandCB
3I
I3- + 2ea1 2
3. Oxidation of the electrolyte
I3 + 2e
b c: Keb a. Dye relaxes into its ground state
b Dye regenerated by TiOE
3b. Dye regenerated by TiO2
c. Electrolyte Reduces atTiO f
Eredox
TiO2 surface
CHOSEA. Di Carlo
![Page 70: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/70.jpg)
Oxidation-Reduction reactions
ER
OD
E
E ECTR
DYE
R E
LEU
TER
CO
U
ELECTROLYTE
Positive counte ions (Li+)
CHOSEA. Di Carlo
![Page 71: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/71.jpg)
Transport: a challenging issue
Two different phases involved (TiO2 and electrolyte)
Three charge carriers contibute to the current (e, I- ,I3-)
Handling of the electrolyte regeneration at the cathode
The electron in the conduction band exhibits anomalous properties:
Extremely long propagation time (ms)
Non-exponential current and recombination transient
I t iti d d t tiIntensities-dependent response times
CHOSEA. Di Carlo
![Page 72: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/72.jpg)
Physical Device Modeling - TiberCAD
TiberCAD is a multiscale device simulator : www.tibercad.org
DSC devices are getting complicate (3D, Tandem, Back contact etc. etc.)
TIberCAD have been extended to account also for simulation of DSC
CHOSEA. Di Carlo
TIberCAD have been extended to account also for simulation of DSC
![Page 73: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/73.jpg)
Theoretical modelCathode: Local boundary conditions allows to
TCO
Cathode:32I I I
L
Ve nR
μ φ− − −− ∇ =
1 Vφ∇
Local boundary conditions allows to avoid the use of Butler-Volmer eq.
Electrolyte I-/I-PLATINUM
( ) ( )1
3 3 3
12I I I
L
Ve nR
μ φ− − −− ∇ = −
Electrolyte I-/I-3
t ii did
iodide( ) ( )GRnIII
−=∇⋅∇ −−−
21
333φμ
3
Lo
+ Poisson for the l t t ti t ti l φtriiodide( ) ( )3
2I I In R Gμ φ− − −∇ ⋅ ∇ = − −
3 2 3I e I− −+
⎡ ⎤
oad (RL
electrostatic potential φ
3 3
3I I
e e e II I
n nR k n n n
n n− −
−
− −
⎡ ⎤⎢ ⎥= −⎢ ⎥⎣ ⎦
)
TCO
electron( ) ( )GRn eee −=∇⋅∇ φμ
⎣ ⎦
TCO
0φ φ∇ = ∇ =No ionic current:Anode: 0ϕ∇ =Ohmic contact:
CHOSEA. Di Carlo
30
I Iφ φ− −∇ = ∇ =No ionic current: 0ϕ∇ =Ohmic contact:
![Page 74: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/74.jpg)
Diffusion driven deviceThe DSC is driven by a concentration unbalance between electrons and redox pairThe DSC is driven by a concentration unbalance between electrons and redox pair induced by the illumination. The drift component is negligible.
RLRL
I- I3-
Concentration profile in the electrolyte region close to the cathode
R = 1000 Ohm
R = 100 Ohm
R = 60 Ohm The effect on the redox pair is much smaller
R = 40 Ohm
R = 10 Ohm
due to the larger concentration. On the other hand the bottleneck results to be the electrons in the oxide.
CHOSEA. Di Carlo
![Page 75: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/75.jpg)
Fit to experimental data
Fitting of sperimental I-V curve of a standard cell (10 μm)
0 8 2/V
EXP DATA
PARAMETERS: µe=0.8 cm2/VsKe=103 1/s
SIMULATIONEXP DATA
10
EXP DATA
10
EXP DATA
R 10Ωcm2 )
cm2 )
RTCO 10Ω5
I (m
A/c
5
I (m
A/c
0 300 600 9000
0 300 600 9000
V (mV)0 300 600 900
V (mV)
CHOSEA. Di Carlo
![Page 76: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/76.jpg)
From 1D model to 2D…
Electron density concentration in a fingered mesoporous structure
Mesh: 11,400 elements
Several different topology can be investigated, with particular interest to the shape of the titanium oxide and the position of the photoanode and platinum layer.
CHOSEA. Di Carlo
![Page 77: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/77.jpg)
From 1D model to 2D…
Interesting effects can be seen changing the topology of the cell, especially the titanium oxideespecially the titanium oxide
two different geometries are shown with the same parameters b t diff t t lbut different topology
The lack of TiO2 for the rectangular geometry reduces the g g ytotal current
CHOSEA. Di Carlo
![Page 78: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/78.jpg)
…. up to 3D
Voc
R =100 ΩR =100 ΩJsc
CHOSEA. Di Carlo
![Page 79: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/79.jpg)
Conclusions
• DSC represents a new way for silicon free h t lt i L t bilitphotovoltaics. Large tunability, easy
manufacture, low plant and material costs. • Large area devices is not trivial and many issues are still openissues are still open
• Industrialization is very close• Scale up of the materials with price reduction is requestis request.
• Many applications. DSC is well suited for building glass envelopes
CHOSEA. Di Carlo
![Page 80: 2132-33 Winter College on Optics and Energyindico.ictp.it/event/a09136/session/80/contribution/55/...2 + 22 5% 20-18-16-14 J [m.-A. Di Carlo CHOSE Transparent Not Transparent Process](https://reader036.vdocuments.site/reader036/viewer/2022081613/5fb3b4ed55716148ef0849a8/html5/thumbnails/80.jpg)
Acknowledgments• UniFerrara (Bignozzi team)• UniFerrara (Bignozzi team)
• UniRoma 1 (Decker team)
• UniTorino (Viscardi‐Barolo team)
• DYESOL
A. RealeT M BT. M. BrownC. BettiolF. Giannini A SpenaA. SpenaC. CornaroE. PetrolatiR RiccitelliR. RiccitelliS. PennaV. MirruzzoM LiberatoreM. LiberatoreA. GagliardiA. Lembo (Dyesol)T. Denaro (Dyesol)
Tor Vergata teamT. Denaro (Dyesol)
And many PhDs (Giordano,Vesce, Mastroianni, Gentiliniwww chose it
CHOSE
, ,etc.)www.chose.it